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Huigang Zhang, Qingshan Zhu, Y. Wang (2005)
Morphologically controlled synthesis of hydroxyapatite with partial substitution of fluorineChemistry of Materials, 17
Yu-Tzu Huang, M. Imura, Y. Nemoto, Chao Cheng, Y. Yamauchi (2011)
Block-copolymer-assisted synthesis of hydroxyapatite nanoparticles with high surface area and uniform sizeScience and Technology of Advanced Materials, 12
Wenbo Yu, Luxia Jiang, Chao Shen, Weiming Xu, Pengfei Zhang (2016)
A highly efficient synthesis of N-glycosyl-1,2,3-triazoles using a recyclable cellulose-copper(0) catalyst in waterCatalysis Communications, 79
S. Hosseini, R. Abazari, Azam Gavi (2014)
Pure CuCr 2 O 4 nanoparticles: Synthesis, characterization and their morphological and size effects on the catalytic thermal decomposition of ammonium perchlorateSolid State Sciences, 37
Hongyou Wang, K. Sun, A. Li, Weili Wang, P. Chui (2011)
Size-controlled synthesis and characterization of fluorapatite nanocrystals in the presence of gelatinPowder Technology, 209
N. Chen, W. Garwood, F. Dwyer (1989)
Shape Selective Catalysis in Industrial Applications
Yu-Ju Wu, Y. Tseng, J. Chan (2010)
Morphology Control of Fluorapatite Crystallites by Citrate IonsCrystal Growth & Design, 10
R. Ramesh, A. Lalitha (2015)
PEG-assisted two-component approach for the facile synthesis of 5-aryl-1,2,4-triazolidine-3-thiones under catalyst-free conditionsRSC Advances, 5
Mansing Mane, D. Pore (2014)
A novel one pot multi-component strategy for facile synthesis of 5-aryl-[1,2,4]triazolidine-3-thionesTetrahedron Letters, 55
Guilin Zhou, Bao-Shan Gui, Hongmei Xie, Fangli Yang, Yong Chen, Shengming Chen, Xu-xu Zheng (2014)
Influence of CeO2 morphology on the catalytic oxidation of ethanol in airJournal of Industrial and Engineering Chemistry, 20
Linyu Deng, Yawei Liu, Tinglin Huang, Tianming Sun (2016)
Fluoride removal by induced crystallization using fluorapatite/calcite seed crystalsChemical Engineering Journal, 287
Hugo Ramananarivo, A. Solhy, J. Sebti, Abedlatif Smahi, M. Zahouily, J. Clark, S. Sebti (2013)
An Eco-Friendly Paradigm for the Synthesis of α-Hydroxyphosphonates Using Sodium-Modified Fluorapatite under Solventless ConditionsACS Sustainable Chemistry & Engineering, 1
Jayavant Patil, D. Pore (2014)
[C16MPy]AlCl3Br: an efficient novel ionic liquid for synthesis of novel 1,2,4-triazolidine-3-thiones in waterRSC Advances, 4
P. Iniyavan, G. Balaji, S. Sarveswari, V. Vijayakumar (2015)
CuO nanoparticles: synthesis and application as an efficient reusable catalyst for the preparation of xanthene substituted 1,2,3-triazoles via click chemistryTetrahedron Letters, 56
M. Pillai, Sooboo Singh, S. Jonnalagadda (2011)
Solvent-free Knoevenagel condensation over iridium and platinum hydroxyapatitesKinetics and Catalysis, 52
Zhiqiang Niu, Yadong Li (2014)
Removal and Utilization of Capping Agents in NanocatalysisChemistry of Materials, 26
K. Kaneda, T. Mizugaki (2009)
Development of concerto metal catalysts using apatite compounds for green organic synthesesEnergy and Environmental Science, 2
Sooboo Singh, S. Jonnalagadda (2008)
Selective Oxidation of n-Pentane Over V2O5 Supported on HydroxyapatiteCatalysis Letters, 126
A. Sharifnabi, M. Fathi, B. Yekta, M. Hossainalipour (2014)
The structural and bio-corrosion barrier performance of Mg-substituted fluorapatite coating on 316L stainless steel human body implantApplied Surface Science, 288
E. Hwang, Rameshwar Tatavarty, Jinyang Chung, M. Gu (2013)
New functional amorphous calcium phosphate nanocomposites by enzyme-assisted biomineralization.ACS applied materials & interfaces, 5 3
C. Mondelli, D. Ferri, A. Baiker (2008)
Ruthenium at work in Ru-hydroxyapatite during the aerobic oxidation of benzyl alcohol: An in situ ATR-IR spectroscopy studyJournal of Catalysis, 258
Min Chen, Deli Jiang, Di Li, Jianjun Zhu, Guofang Li, Jimin Xie (2009)
Controllable synthesis of fluorapatite nanocrystals with various morphologies: Effects of pH value and chelating reagentJournal of Alloys and Compounds, 485
K. Wu, Ya-Huei Yang, Yung-He Liang, Huiyun Chen, E. Sung, Y. Yamauchi, F. Lin (2011)
Facile Synthesis of Hollow Mesoporous Hydroxyapatite Nanoparticles for Intracellular Bio-imagingCurrent Nanoscience, 7
Haifeng Chen, K. Sun, Z. Tang, R. Law, J. Mansfield, B. Clarkson (2006)
Synthesis of Fluorapatite Nanorods and Nanowires by Direct Precipitation from Solution.Crystal growth & design, 6 6
T. Maruyama, Yuhei Fujimoto, T. Maekawa (2015)
Synthesis of gold nanoparticles using various amino acids.Journal of colloid and interface science, 447
Hadi Roosta, A. Dashti, S. Mazloumi, F. Varaminian (2016)
Inhibition properties of new amino acids for prevention of hydrate formation in carbon dioxide–water system: Experimental and modeling investigationsJournal of Molecular Liquids, 215
S. Mulla, S. Chavan, M. Pathan, S. Inamdar, Taufeekaslam Shaikh (2015)
Ligand-, base-, co-catalyst-free copper fluorapatite (CuFAP) as a versatile, ecofriendly, heterogeneous and reusable catalyst for an efficient homocoupling of arylboronic acid at ambient reaction conditionsRSC Advances, 5
Sooboo Singh, S. Jonnalagadda (2012)
Synthesis of thermally stable metal substituted hydroxy apatites for the selective oxidation of light paraffinsBulletin of The Chemical Society of Ethiopia, 27
P. Miceli, S. Bensaid, N. Russo, D. Fino (2015)
Effect of the morphological and surface properties of CeO2-based catalysts on the soot oxidation activityChemical Engineering Journal, 278
Atsushi Takahashi, W. Xia, Qiang Wu, T. Furukawa, I. Nakamura, H. Shimada, T. Fujitani (2013)
Difference between the mechanisms of propylene production from methanol and ethanol over ZSM-5 catalystsApplied Catalysis A-general, 467
Pawan Kumar, C. Joshi, A. Srivastava, P. Gupta, R. Boukherroub, S. Jain (2016)
Visible Light Assisted Photocatalytic [3 + 2] Azide–Alkyne “Click” Reaction for the Synthesis of 1,4-Substituted 1,2,3-Triazoles Using a Novel Bimetallic Ru–Mn ComplexACS Sustainable Chemistry & Engineering, 4
K. Viipsi, S. Sjöberg, K. Tõnsuaadu, A. Shchukarev (2013)
Hydroxy- and fluorapatite as sorbents in Cd(II)-Zn(II) multi-component solutions in the absence/presence of EDTA.Journal of hazardous materials, 252-253
L. Türker (2016)
Azo-bridged triazoles: Green energetic materialsDefence Technology, 12
A. Saber, A. Smahi, A. Solhy, R. Nazih, Brahim Elaabar, Mostapha Maizi, S. Sebti (2003)
Heterogeneous catalysis of Friedel-Crafts alkylation by the fluorapatite alone and doped with metal halidesJournal of Molecular Catalysis A-chemical, 202
M. Gruselle (2015)
Apatites: A new family of catalysts in organic synthesisJournal of Organometallic Chemistry, 793
M. Peld, K. Tõnsuaadu, V. Bender (2004)
Sorption and desorption of Cd2+ and Zn2+ ions in apatite-aqueous systems.Environmental science & technology, 38 21
F. Jones, M. Ogden (2010)
Controlling crystal growth with modifiersCrystEngComm, 12
M. Mady, J. Bak, Hyung-il Lee, M. Kelland (2014)
The first kinetic hydrate inhibition investigation on fluorinated polymers: Poly(fluoroalkylacrylamide)sChemical Engineering Science, 119
Jun-feng Zhao, Xiaochen Dong, Mengmeng Bian, Junfeng Zhao, Y. Zhang, Yueqiu Sun, Jianhua Chen, Xuhong Wang (2014)
Solution combustion method for synthesis of nanostructured hydroxyapatite, fluorapatite and chlorapatiteApplied Surface Science, 314
Mingjie Li, Xiaochen Wu, Jiyu Zhou, Q. Kong, Chaoxu Li (2016)
Single-crystal Au microflakes modulated by amino acids and their sensing and catalytic properties.Journal of colloid and interface science, 467
Wei Xia, Kun Chen, Atsushi Takahashi, Li Xiuyi, Xichuan Mu, Chenhui Han, Li Liu, I. Nakamura, T. Fujitani (2016)
Effects of particle size on catalytic conversion of ethanol to propylene over H-ZSM-5 catalysts—Smaller is betterCatalysis Communications, 73
A. Antonakos, E. Liarokapis, T. Leventouri (2007)
Micro-Raman and FTIR studies of synthetic and natural apatites.Biomaterials, 28 19
A. Smahi, A. Solhy, H. Badaoui, Abderrahim Amoukal, A. Tikad, Mostafa Maizi, S. Sebti (2003)
Potassium fluoride doped fluorapatite and hydroxyapatite as new catalysts in organic synthesisApplied Catalysis A-general, 250
Dirong Gong, Wen Liu, Wei-Juan Pan, Tao Chen, X. Jia, Kuo‐Wei Huang, Xuequan Zhang (2015)
Tunable regioselectivity in 1,3-butadiene polymerization by using 2,6-bis(dimethyl-2-oxazolin-2-yl)pyridine incorporated transition metal (Cr, Fe and Co) catalystsJournal of Molecular Catalysis A-chemical, 406
A. Venugopal, M. Scurrell (2003)
Hydroxyapatite as a novel support for gold and ruthenium catalystsApplied Catalysis A-general
X. Zhao, Lei Huang, Hongrui Li, Hang Hu, Jinlong Han, Liyi Shi, Dengsong Zhang (2015)
Highly dispersed V2O5/TiO2 modified with transition metals (Cu, Fe, Mn, Co) as efficient catalysts for the selective reduction of NO with NH3Chinese Journal of Catalysis, 36
M. Pillai, Sooboo Singh, S. Jonnalagadda (2010)
Solvent-Free Knoevenagel Condensation over Cobalt HydroxyapatiteSynthetic Communications, 40
E. Iyyappan, P. Wilson (2013)
Synthesis of nanoscale hydroxyapatite particles using triton X-100 as an organic modifierCeramics International, 39
E. Kramer, Aimee Morey, M. Staruch, S. Suib, Menka Jain, J. Budnick, M. Wei (2012)
Synthesis and characterization of iron-substituted hydroxyapatite via a simple ion-exchange procedureJournal of Materials Science, 48
M. Nasrollahzadeh, S. Sajadi, Y. Mirzaei (2016)
An efficient one-pot synthesis of 1,4-disubstituted 1,2,3-triazoles at room temperature by green synthesized Cu NPs using Otostegia persica leaf extract.Journal of colloid and interface science, 468
Yuxiu Sun, Hua Yang, D. Tao (2012)
Preparation and characterization of Eu3+-doped fluorapatite nanoparticles by a hydrothermal methodCeramics International, 38
(2014)
Efficient synthetic route for thio-triazole derivatives.
Keywords Fluorapatite Fe Amino acid Morphology Heterogeneous catalysis Triazole Introduction Fluorapatites [Ca (PO ) F , FAp], the apatite group minerals possess wide spectrum 5 4 3 2 of applications in the fields of earth and material sciences and various industries [1–4]. Their eccentric virtues of low solubility, good compatibility, and ease of exchange of ions imbue scientific curiosity among researchers in using such materials as adsorbents, drug and catalyst carriers, and in biomedical instrumen- tation [5–7]. The impetus properties of FAps promptly empowered in the designing of heterogeneous catalysts for accurately targeting vulnerable organic transforma- tions [8]. Moreover, the structural engineering of catalysts plays a pivotal role in their tuning efficacy [9–11]. The properties of catalysts do not merely depend on their chemical composition, but also on their physical features such as morphology, size, shape, and phase [12–14]. Control of the morphology is indispensable for augmenting the activity of catalysts [15]. Therefore, techniques for the preparation of catalysts with controlled structure are the greater focus to achieve improved catalytic activity. The literature describes various methods in material preparation by using surfactants, chelating agents, organic compounds, biological proteins, etc., to influence or modify the growth
Research on Chemical Intermediates – Springer Journals
Published: Sep 14, 2016
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